Wet friction discs exhibit stable performance in high-temperature environments.
They are available in various materials; for instance, copper-based powder metallurgy materials feature high permissible surface temperatures, a stable coefficient of friction at high heat, and a long service life. Wet paper-based friction discs also perform exceptionally well, offering excellent heat resistance and stability, along with a consistent coefficient of friction at high temperatures. Renowned brands like "Tongyu" excel in heat resistance tests, maintaining stable performance even under extreme climatic conditions, while products from Lintai New Materials can withstand continuous sliding friction at temperatures as high as 200°C with minimal performance degradation.
Specifically, when applied to wet friction interfaces, copper-based powder metallurgy materials demonstrate strong adaptability to high-temperature environments due to their unique properties. Their high permissible surface temperature allows them to maintain a stable coefficient of friction under heat-a critical factor for ensuring the stability of automotive power transmission. Their durability also reduces the inconvenience and costs associated with frequent component replacement.
Wet paper-based friction discs also deliver outstanding results, performing impressively in high-temperature friction environments. Their superior heat resistance and stability effectively ensure consistent braking efficiency and safety under high-temperature conditions. A stable coefficient of friction enables precise braking response, providing a reliable guarantee for vehicle safety.
"Tongyu" wet friction discs excel in heat resistance tests, maintaining stable performance even in extreme weather. This demonstrates their ability to provide reliable braking support for construction machinery-such as excavators-in complex, high-temperature environments, thereby ensuring both the proper operation of the equipment and the safety of the operators.
